13.1 Overview of OES 2 Storage
This section presents the following overview information for the file systems included in OES:
13.1.1 Databases
See the topics in databases
in the OES online documentation.
13.1.2 iSCSI
See the topics in iSCSI for NetWare
in the OES online documentation.
13.1.3 File System Support in OES
As shown in Figure 13-1, both OES 2 server platforms support Novell® Storage Services™ as well as their traditional file systems.
Figure 13-1 File System Choices on OES 2 Servers
Table 13-1 summarizes OES file system types and provides links to more information.
Table 13-1 File Systems Available on OES 2 Servers
|
File System Type |
Summary |
Link for More Information |
|---|---|---|
|
Linux POSIX File Systems |
SLES 10 includes a number of different file systems, the most common of which are Ext3 and ReiserFS. OES 2 services are supported on Ext3, ReiserFS, and XFS. |
For an overview of the supported file systems in OES 2, see |
|
NetWare® Traditional File System |
Although it is considered a legacy file system on NetWare servers, the NetWare Traditional file system is still robust. It supports the NetWare file service access model. |
For more information, see the NW6.5 SP8: Traditional File System Administration Guide. |
|
Novell Storage Services (NSS) |
NSS lets you manage your shared file storage for any size organization. On Netware, NSS features include visibility, a trustee access control model, multiple simultaneous name space support, native Unicode, user and directory quotas, rich file attributes, multiple data stream support, event file lists, and a file salvage subsystem. Most of these features are also supported on NSS on Linux. For a feature comparison, see |
For an overview of NSS, see |
Novell Storage Services (NSS)
The following sections summarize key points regarding NSS:
Understanding NSS Nomenclature
NSS uses a specific nomenclature to describe key media objects. These terms appear in both the NSS documentation and in NSS error messages.
For more information, see NSS Nomenclature
in the NW 6.5 SP8: NSS File System Administration Guide.
Comparing NSS with Other File Systems
Because OES 2 supports a variety of file systems, you might want to compare their features and benefits as outlined in the following sections of the NW 6.5 SP8: NSS File System Administration Guide:
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NSS Linux vs. NSS NetWare:
Comparison of NSS on NetWare and NSS on Linux
-
NSS Linux vs. Linux POSIX:
Comparison of NSS on Linux and NCP Volumes on Linux POSIX File Systems
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NSS Netware vs. NetWare Traditional:
Comparison of NSS on NetWare and the NetWare Traditional File System
NSS and Storage Devices
NSS supports both physical devices (such as hard disks) and virtual devices (such as software RAIDs and iSCSI devices).
For more information on the various devices that NSS supports, see Managing Devices
in the NW 6.5 SP8: NSS File System Administration Guide.
13.1.4 Storage Basics by Platform
The following sections summarize storage basics for Linux and NetWare.
Linux and File Systems
For a high-level overview of the file system on Linux, including the root (/) directory, mount points, standard folders, and case sensitivity, see Understanding Directory Structures in Linux POSIX File Systems
in the NW 6.5 SP8: File Systems Management Guide.
NetWare Directories
NetWare uses volumes and directories (or folders) to organize data. NetWare file systems support directory paths, fake root directories, Directory Map objects, and drive mappings.
For more information, see Understanding Directory Structures for the NSS and NetWare Traditional File Systems
in the NW 6.5 SP8: File Systems Management Guide.
NetWare Storage Devices
NetWare lets you use many different kinds of storage devices, including server disks, single storage devices, arrays of storage devices, and virtual storage devices.
To understand how NetWare connects with and uses storage devices, see Overview of Server Disks and Storage Devices for NetWare
in the NW6.5 SP8: Server Disks and Storage Devices.
13.1.5 Storage Options
The following sections summarize OES storage options.
Dynamic Storage Technology
Dynamic Storage Technology for OES 2 Linux lets you present the files and subdirectories on two separate NSS volumes as though they were on a single, unified NSS volume called a shadow volume.
NCP™ client users and Samba/CIFS users who access the primary volume see the files and subdirectories from both volumes as if they were all on one volume. All the actions they take—renaming, deleting, moving, etc.—are synchronized by Dynamic Storage Technology across the two volumes.
Unlike the NCP client, backup tools see the volumes separately and can therefore apply one backup policy to the primary and a different backup policy to the secondary volume.
You can use Dynamic Storage Technology to substantially reduce storage costs by placing your less frequently accessed files on less expensive storage media. You can even employ a “move on demand” migration strategy by defining new, more expensive SAN or RAID storage that is initially empty as the primary volume, and then configuring Dynamic Storage Technology so that data is migrated to this primary storage only when it is accessed.
In addition, Dynamic Storage Technology doesn’t suffer the performance penalty that HSM solutions do.
For more information about Dynamic Storage Technology, see the OES 2 SP2: Dynamic Storage Technology Administration Guide.
Direct-Attached Storage Options (NSS and Traditional)
As shown in Figure 13-1, you can install traditional volumes and Novell Storage System (NSS) volumes on both OES platforms. These devices can be installed within the server or attached directly to the server through an external SCSI bus.
For more information, see Direct Attached Storage Solutions
in the NW 6.5 SP8: Storage and File Services Overview.
Advanced Storage Options (NSS Only)
NSS volumes support the following advanced storage solutions, as documented in the NW 6.5 SP8: Storage and File Services Overview.
-
Network Attached Storage Solutions
A dedicated data server or appliance that provides centralized storage access for users and application servers through the existing network infrastructure and by using traditional LAN protocols such as Ethernet and TCP/IP. When Gigabit Ethernet is used, access speeds are similar to direct attached storage device speeds.
The disadvantage is that data requests and data compete for network bandwidth.
-
Storage Area Network Solutions
A separate, dedicated data network consisting of servers and storage media that are connected through high-speed interconnects, such as Fibre Channel.
-
You can create a SAN using Novell iSCSI, which uses Novell eDirectory™ to manage iSCSI resources, including granting trustee rights and user file access. For information, see NW 6.5 SP8: iSCSI 1.1.3 Administration Guide.
-
-
Fault-Tolerant and High-Availability Architectures
Use one or more of the following technologies:
-
Multiple Path I/O: NSS helps prevent failure in the connection between the CPU and the storage device by automatically identifying multiple paths between each NetWare server and its storage devices.
For more information, see
Managing Multipath I/O to Devices (NetWare)
in the NW 6.5 SP8: NSS File System Administration Guide. -
Software RAIDs: NSS supports software RAIDS to improve storage availability and performance by enhancing data fault tolerance and I/O performance.
For more information, see
Managing NSS Software RAID Devices
in the NW 6.5 SP8: NSS File System Administration Guide. -
Server Clusters: You can configure up to 32 NetWare servers or Linux servers into a high-availability cluster where resources and services are dynamically allocated to any server in the cluster and automatically switched to another server if the hosting server fails.
By manually switching services, IT organizations can maintain and upgrade servers during production hours and eliminate scheduled downtime.
For more information, see the NW6.5 SP8: Novell Cluster Services 1.8.5 Administration Guide and the OES 2 SP2: Novell Cluster Services 1.8.7 for Linux Administration Guide.
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13.1.6 NetWare Core Protocol Support (Novell Client Support) on Linux
Many organizations rely on Novell Client™ software and the NetWare Core Protocol™ (NCP) for highly secure access to file storage services.
Novell Storage Services (NSS) volumes are NCP volumes by nature, but you can also define Linux POSIX volumes as NCP volumes. The main difference in access control between NSS volumes and Linux POSIX volumes that are defined as NCP volumes is that NSS extended file and directory attributes are not available on Linux POSIX volumes.
The NCP server for OES 2 Linux lets you attach to Linux POSIX volumes that are defined as NCP volumes using Novell Client software. For more information, see Section 17.6, NCP Implementation and Maintenance.